​Former Google employee, James Damore’s leaked memo has sparked a heated debate on the topic of diversity in the tech industry, particularly as it relates to women’s capacity for STEM careers. Many leaders are facing similar discussions in their own organizations and finding themselves untangling the various perspectives presented in the media. In this blog, my goal is to review the available scientific evidence on gender differences as it relates to STEM careers. Following this I will share recommendations for organizations looking to promote gender diversity.​

​The ChasmThere are three broad camps represented in this vigorous debate. The “biology” camp argues that men and women are biologically different with few social influences causing these variations. The “abilities” camp views women as lacking in abilities and interests that are required for careers in science and engineering. The “societal influence” camp argues that rather than abilities, it’s the societal conditions that thwart women's’ interests in STEM careers. Each of these perspectives have received research attention making it possible to evaluate the arguments more objectively.​The ScienceFirst, here’s a brief overview of the key perspectives on the root causes for gender differences. For each I highlight where the science supports and refutes specific claims.​

​Evolutionary theory: Proponents of an evolutionary approach, suggest that selection leads to different adaptive behaviors in men and women. They argue that thousands of years of biological programming explain why women have greater responsibilities in child bearing and rearing. They suggest that men, on the other hand, evolved to ensure the physical survival of their mates and off-springs. As a result, their adaptive responses are geared toward survival and protection. Thus far, the science suggests only mixed support for this view.​

Social-Cognitive learning theory: Originally proposed by Stanford's Albert Bandura, this theory suggests that adults and children learn acceptable behaviors through ongoing reinforcements and punishments, both directly and by observing others. As social beings, humans are programmed to imitate others, particularly those in power. By observing the action of powerful others, they learn to engage in socially desirable behaviors. This brings positive affirmation from others leading to increased confidence in oneself (self-efficacy). In the case of gender differences, there are culturally acceptable behaviors for males and females. These are learned early in life by observing others and regulating one's own behaviors to be more in line with acceptable norms. The science for Social-Cognitive theory is very strong, and supports the idea that traditional gender norms and social processes conspire to account for some of the gender disparity in traditionally male jobs.​

​Sociocultural theory: According to this theory psychological gender differences are the result of societal segregation of labor by gender. Historically, biological difference between men and women resulted in men doing work requiring strength and women being predominantly focused on home and family care . Studies on vocational interests show sizeable gender differences. Men tend to be more interested in things, and women more on people and relationships. These interests influence the career choices made by each gender. Men and women also pursue different career goals. Men favor opportunities that bring status, success and allow for competition. Women favor opportunities that require working with people, caring for others, and attending to other’s needs.​

​Expectancy-value theory. This theory explains a person’s decision to pursue a challenging task. According to the theory, people pursue tasks they expect to succeed in (expectancies) and are aligned with their interest and perceived utility in achieving their goals (value). This theory has received considerable empirical support in explaining gender differences in the pursuit of activities that may be outside of the community’s stereotype for gender roles.​While these major theories help us organize our thinking about gender differences, what does the science say about specific capabilities of each gender? Are they really substantially different, and if so are they the result of biological differences or influenced by socialization? ​

​Verbal skills Meta-analytic studies of US data show that boys and girls are very similar in reading comprehension, vocabulary, and essay writing. Girls score slightly better in verbal fluency. One large cross-national study found larger gender differences, also favoring girls. [4] In general, experts are in agreement that gender differences in verbal skills are small or negligible.​

WritingBoys and girls are generally found to be similar in academic skills. Recent studies show some exceptions to this finding. A 2015 study investigating achievement in standardized tests found that girls in the United States scored substantially higher than boys in spelling and written expression. [6] This was true across all age groups. While the reason for these differences was not systematically studied, the investigators suggest it may be due to gender differences in processing speed (girls tend to be faster on simple cognitive tasks) and better self-regulatory skills which are important for improving writing quality. ​

​MathematicsRecent studies comparing math scores of boys and girls in the United States shows no meaningful gender difference. It is interesting to note that gender differences were slightly in favor of boys in studies conducted in the nineties and the score difference was much greater for complex problem-solving. More recent data collected within the last decade shows the gap in complex problem solving has narrowed significantly and the differences are negligible. This provides some support for the changing societal expectation for gender appropriate interests. [4]​Cross-national studies of math performance show gender similarities in most countries, however, in some countries the difference is greater. The sociocultural difference may account for these variations. Gender differences in math are highly correlated to factors such as number of women in research roles at the country level, enrollment of girls in school, and also representation of women in parliamentary positions. [2]​

​Attitude toward math: Interestingly, even though there were gender similarities in math achievement, boys and girls varied significantly in their attitude toward math. Boys, in general, showed greater confidence in their math abilities and also greater intrinsic and extrinsic motivation to do well. [2] Experts attribute these differences to girls having a greater need to please and seek the approval of adults. As a result, they feel they are not meeting the standards set for them and feel less confident about their own performance.​

Spatial skillsWhile men and women score similarly in verbal and math skills, women tend to have lower spatial skills. This specifically refers to skills in mentally rotating objects which is important for success in many engineering disciplines.[4] On a positive note, studies show that training can lead to significant improvements in this skill for men and women. There is also evidence that playing video games can improve spatial skills.

​PersonalityStudies based on the big five frameworks show that men and women score similarly on consciousness, one of the biggest personality based predictors of job performance. [3] Men score slightly higher on assertiveness. Women tend to be more anxiety prone and are significantly more agreeable, particularly on aspects related to nurturing. However, these differences were largest in the US data but not supported in data from others parts of the world. For example, Black South African women scored similarly to men on anxiety proneness and agreeableness. Current understanding of gender differences in personality is mixed. [4]

​Interests and Vocational preferencesIn studies looking at work-related interests, the studies have found sizable gender differences. In particular, men prefer working with things, and women prefer working with people. Even when women select STEM careers, they tend to prefer occupations that offer more options for interaction with people, such as in biological science, medicine, Psychology, and Social Sciences. [7]​Women tend to endorse communal goals more than men, which drives them to select careers that are more helping and altruism focused. In general, men tend to endorse agentic goals. This causes them to favor careers where they can acquire power, achieve, and compete. The pursuit of agentic goals is also associated with interest in STEM careers. The pursuit of communal goals is associated with careers preferred by women such as nursing, kindergarten teacher, human resources, and education. Such differences in preferences are cited as reasons for why women don’t prefer STEM careers. In support of this claim, there is some evidence showing that women opt out of STEM careers more often than men. [1]

​What Does it all Mean?These findings are often cited as the main reasons why women are underrepresented in STEM careers. However, it is important to note that vocational interests can be influenced by parental expectations and societal values. Additionally, interests tend to stabilize toward the end of high school and peak in college. To close gender differences in STEM careers, efforts must begin early when children start to understand role expectations. Furthermore, it is insufficient to focus attention on recruiting more women in the workplace. Such efforts must be coupled with job design efforts where STEM careers are designed to appeal to both, those driven by the pursuit of agentic goals (e.g., promotes speed and profitability) verses those who prefer communal goals (e.g., betterment of others). ​Based on current scientific understanding, it is clear that the capability differences between men and women are complex and not favoring any particular gender. At the same time, there is evidence pointing to the importance of nature and nurture in shaping vocational preferences and job interests. For organizations looking to create gender parity, an exploration of the difference between men and women is less useful. It may be more fruitful to explore why women are less likely to choose, pursue, and stay in STEM careers. Similarly, it is worth investigating why men are less likely to work in more female-centric careers such as nursing and education. Addressing these challenge is advantages to both business and society. About 57% of recent graduates with a bachelor’s degree are women, accounting for a large portion of the incoming workforce. Organizations that aspire to gain a competitive advantage in a tight labor market can stand to gain by attracting a diverse candidate pool. When more women are employed in higher paying roles, it proves advantages to the economy and society.

According to the most recent National Science Foundation (NSF) statistics, female enrollment into STEM bachelor’s programs is failing. In the US, enrollment of women in undergraduate Computer Science programs fell from 25% in 2004 to 18% in 2014. A similar decline was observed in Math and Statistics programs where women enrollments dropped from 46% in 2004 to 42% in 2014. This decline is rather puzzling given the increase in gender parity in math scores. Sociocultural factors may be a key factor in explaining this decline. In the NSF survey, women select “family” as the most frequent reason for not working. This was closely followed by “job not available” as a leading reason. What these responses suggest is that women continue to bear the primary responsibility for child rearing and eldercare. Another cause may be that women are more likely to be paid less than their husbands leading to fewer economic benefits for the family. Infact, the 2015 US Census Bureau statistics show that women made 21% less than their male counterparts. Furthermore, women tend to be over-represented in jobs with lower median incomes. All these factors, likely contributes to women deprioritizing their career to ensure at least one member has a stable and rewarding career. Lack of female role models in successful positions may be an additional factor influencing women’s career decisions. These arguments reveal a broader set of inter-mingled challenges that go beyond the gender differences debate.. Therefore, single solutions such as attracting more women into STEM careers may only be minimally effective in creating gender parity. What’s required is a multi-pronged approach that addresses some of the systemic root causes leading to gender inequality..

What can Organizations do? 1. Encourage Men and Women to pursue careers outside of traditional norms (e.g. women in STEM and masonry; men in nursing). This requires exposure to a wide variety of career options long before people are ready to enter the workforce.

To influence career choices at a younger age, organizations can partner with K-12 educational institutions to present more gender-neutral role models, for example, women in STEM careers such as astrophysics and aeronautics. It is important that boys, girls, and parents are exposed to these opportunities to minimize gender stereotyping.

Develop career resources that appeal to broader interests and goals. For example, emphasize how careers in technology support relational goals, as in the importance of team work and managing social relationships. Highlight how better technology is required to advance health and well-being as opposed to faster machines and increase revenue.

Organizations can also offer mentoring to women after they have begun their STEM education. This will likely ensure increased retention of women in STEM careers, as well as successful completion of their degrees.

​2. Ensure increased representation of women in candidate pools for STEM careers. This requires long-term investment with academic institutions and affinity groups. It is also important to design talent acquisition processes that are evidence-based, one that minimizes biases and promotes accurate, fact-based decision-making.

3. Design jobs such that they are enriched with tasks that are matched with each gender’s preferences. Conduct studies to minimize stereotyping in role requirements (e.g., preference for males, unnecessary physical requirements) or foster conditions that are unwelcome toward women (e.g., tradition of visiting strip clubs after winning a big deal).

4.Provide men and women opportunities to advance their capabilities particularly toward closing gaps, overcoming weaknesses, and opportunity to stretch through challenging assignments. Many organizations utilize a strengths-based approach to development. While seeming a good idea, it may inadvertently minimize opportunities for women. This is most likely in situations where women need to address a skills gap that are not their natural strength. Consider for example, a technically skilled women aspiring a promotion to the management ranks. Assume the higher level position require demonstrating a competitive spirit, generally a male attribute. Under a strength-based development strategy, she may never have the opportunity to develop this attribute and remain disadvantaged unless the role requirements are changed. ​5. Finally, create an organizational culture where there is an expectation to be mindful of ones actions and the impact it may have on others. This is called perspective taking. Perspective taking exercises have been found to promote reflection and reduce bias. Furthermore, it engenders feelings of camaraderie with people of different backgrounds leading to a more inclusive workforce.

There you have it, a summary of the science behind gender differences and it impact on STEM careers. Hope the recommendations are useful in furthering your organization’s diversity agenda.